Commit graph

5 commits

Author SHA1 Message Date
Henry
f0842aea0e Updated version to 2.4.0 2015-05-20 22:38:10 +01:00
Henry
1cacdf0d89 interFoam family: Add support for MULES-bounded Crank-Nicolson 2nd-order ddt(alpha)
This is an experimental feature demonstrating the potential of MULES to
create bounded solution which are 2nd-order in time AND space.

Crank-Nicolson may be selected on U and/or alpha but will only be fully
2nd-order if used on both within the PIMPLE-loop to converge the
interaction between the flux and phase-fraction.  Note also that
Crank-Nicolson may not be used with sub-cycling but all the features of
semi-implicit MULES are available in particular MULESCorr and
alphaApplyPrevCorr.

Examples of ddt specification:

ddtSchemes
{
    default         Euler;
}

ddtSchemes
{
    default         CrankNicolson 0.9;
}

ddtSchemes
{
    default         none;
    ddt(alpha)      CrankNicolson 0.9;
    ddt(rho,U)      CrankNicolson 0.9;
}

ddtSchemes
{
    default         none;
    ddt(alpha)      Euler;
    ddt(rho,U)      CrankNicolson 0.9;
}

ddtSchemes
{
    default         none;
    ddt(alpha)      CrankNicolson 0.9;
    ddt(rho,U)      Euler;
}

In these examples a small amount of off-centering in used to stabilize
the Crank-Nicolson scheme.  Also the specification for alpha1 is via the
generic phase-fraction name to ensure in multiphase solvers (when
Crank-Nicolson support is added) the scheme is identical for all phase
fractions.

This development is back-ported from OpenFOAM-dev:
f78d33b634
2015-02-25 16:32:06 +00:00
Henry
3207f8d0c7 sixDoFRigidBodyMotion: Add support to specify the centre for rotation independent of the centre of mass
via the point, line or plane constraints.
2014-05-16 15:35:11 +01:00
Henry
3c837948f1 Removed alphaOuterCorrectors option because the mass-flux should be updated for all PIMPLE iterations
Resolves bug-report http://www.openfoam.org/mantisbt/view.php?id=1225
2014-03-17 21:31:09 +00:00
OpenFOAM-admin
9fd0db5cf9 Initial commit for version 2.3.x 2014-02-17 16:00:08 +00:00